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    发布时间:2017-06-13 15:12:07    点击:1049

学术报告


题  目:Putting Nanomaterials to Work for Biomedical and Energy Research
报告人:Professor Younan Xia     Georgia Institute of Technology, USA
时  间:2017年7月4日下午16:00
地  点:仙林化学楼 H201
 
报告摘要:
    Nanomaterials are finding widespread use in a broad range of applications, including photonics, electronics, catalysis, energy conversion, sensing, imaging, and biomedicine. For more than 20 years, we have been working diligently to develop novel nanomaterials with well-controlled properties. In this talk, I will briefly discuss some of the new developments, with a focus on the rational design and controlled synthesis of gold nanomaterials for optical imaging, drug delivery, and cancer theranostics, electrospun nanofibers for regenerative medicine, and hollow nanocrystals for catalysis and fuel cell technology. At the end, I will discuss how to scale up the production of these nanomaterials without losing control to provide samples with the quality, quantity, and reproducibility needed for a systematic study of their fundamental properties as a function of size, shape, and internal structure, and for the exploration of translational/industrial applications.
 
报告人简介:
    Younan Xia is the Brock Family Chair and Georgia Research Alliance (GRA) Eminent Scholar in Nanomedicine at the Georgia Institute of Technology. He received a B.S. degree in chemical physics from the University of Science and Technology of China in 1987, a M.S. degree in inorganic chemistry from University of Pennsylvania (with Professor Alan G. MacDiarmid) in 1993, and a Ph.D. degree in physical chemistry from Harvard University (with Professor George M. Whitesides) in 1996. His group has invented a myriad of nanomaterials with well-controlled properties. These nanomaterials have found widespread use in applications related to plasmonics, catalysis, fuel cell technology, electronics, photonics, photovoltaics, display, nanomedicine, and regenerative medicine. As a notable example, his technology on silver nanowires has been commercialized for the manufacturing of flexible, transparent, and conductive coatings sought in applications such as touch screen, flexible electronics, and photovoltaics. Xia has co-authored more than 680 publications in peer-reviewed journals, together with a total citation of more than 120,000 and an h-index of 170. He has been named a Top 10 Chemist and Materials Scientist based on the number of citation per publication. He has received a number of prestigious awards, including American Chemical Society (ACS) National Award in the Chemistry of Materials (2013), NIH Director's Pioneer Award (2006), David and Lucile Packard Fellow in Science and Engineering (2000), NSF CAREER (2000), and Alfred P. Sloan Research Fellow (2000). More information can be found at http://www.nanocages.com.
 
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